Glutamate pharmacology and metabolism in peripheral primary afferents: physiological and pathophysiological mechanisms.

In addition to using glutamate as a neurotransmitter at central synapses, many primary sensory neurons release glutamate from peripheral terminals. Primary sensory neurons with cell bodies in dorsal root or trigeminal ganglia produce glutaminase, the synthetic enzyme for glutamate, and transport the enzyme in mitochondria to peripheral terminals. Vesicular glutamate transporters fill neurotransmitter vesicles with glutamate and they are shipped to peripheral terminals. Intense noxious stimuli or tissue damage causes glutamate to be released from peripheral afferent nerve terminals and augmented release occurs during acute and chronic inflammation. The site of action for glutamate can be at the autologous or nearby nerve terminals. Peripheral nerve terminals contain both ionotropic and metabotropic excitatory amino acid receptors (EAARs) and activation of these receptors can lower the activation threshold and increase the excitability of primary afferents. Antagonism of EAARs can reduce excitability of activated afferents and produce antinociception in many animal models of acute and chronic pain. Glutamate injected into human skin and muscle causes acute pain. Trauma in humans, such as arthritis, myalgia, and tendonitis, elevates glutamate levels in affected tissues. There is evidence that EAAR antagonism at peripheral sites can provide relief in some chronic pain sufferers.

[1]  R. H. Evans,et al.  The primary afferent depolarizing action of kainate in the rat , 1986, British journal of pharmacology.

[2]  N. Curthoys,et al.  Isolation, characterization and expression of a human brain mitochondrial glutaminase cDNA. , 2000, Brain research. Molecular brain research.

[3]  L. Arendt-Nielsen,et al.  Glutamate-induced sensitization of rat masseter muscle fibers , 2002, Neuroscience.

[4]  K. Miller,et al.  Peripheral inhibition of glutaminase reduces carrageenan-induced Fos expression in the superficial dorsal horn of the rat , 2010, Neuroscience Letters.

[5]  B. Sessle,et al.  Evidence That Excitatory Amino Acid Receptors within the Temporomandibular Joint Region Are Involved in the Reflex Activation of the Jaw Muscles , 1998, The Journal of Neuroscience.

[6]  B. Ault,et al.  Activation of nociceptive reflexes by peripheral kainate receptors. , 1993, The Journal of pharmacology and experimental therapeutics.

[7]  L. Arendt-Nielsen,et al.  Interactions of glutamate and capsaicin-evoked muscle pain on jaw motor functions of men , 2010, Clinical Neurophysiology.

[8]  L. Arendt-Nielsen,et al.  Sex-related differences in NMDA-evoked rat masseter muscle afferent discharge result from estrogen-mediated modulation of peripheral NMDA receptor activity , 2007, Neuroscience.

[9]  Jesper Kristiansen,et al.  Increase in muscle nociceptive substances and anaerobic metabolism in patients with trapezius myalgia: microdialysis in rest and during exercise , 2004, Pain.

[10]  V. C. Filho,et al.  N-Antipyrine-3, 4-Dichloromaleimide, an Effective Cyclic Imide for the Treatment of Chronic Pain: The Role of the Glutamatergic System , 2010, Anesthesia and analgesia.

[11]  Z. Wen,et al.  Increased concentrations of neuro‐excitatory amino acids in rat anterior cruciate ligament‐transected knee joint dialysates: A microdialysis study , 2005, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[12]  S. Bledsoe,et al.  Potassium-induced release of endogenous glutamate and two as yet unidentified substances from the lateral line of Xenopus laevis , 1989, Brain Research.

[13]  P. D’Aquila,et al.  Effects of (-)-linalool in the acute hyperalgesia induced by carrageenan, L-glutamate and prostaglandin E2. , 2004, European journal of pharmacology.

[14]  R. Gereau,et al.  Peripheral group I metabotropic glutamate receptors modulate nociception in mice , 2001, Nature Neuroscience.

[15]  R. Johns,et al.  Evidence of neuronal excitatory amino acid carrier 1 expression in rat dorsal root ganglion neurons and their central terminals , 2004, Neuroscience.

[16]  B. Chizh Low dose ketamine: a therapeutic and research tool to explore N-methyl-D-aspartate (NMDA) receptor-mediated plasticity in pain pathways , 2007, Journal of psychopharmacology.

[17]  Y. Atoji,et al.  Localization of Vesicular Glutamate Transporter 2 mRNA in the Dorsal Root Ganglion of the Pigeon (Columba Livia) , 2009, Anatomia, histologia, embryologia.

[18]  P. Roberts,et al.  THE DISTRIBUTION AND AXONAL TRANSPORT OF FREE AMINO ACIDS AND RELATED COMPOUNDS IN THE DORSAL SENSORY NEURON OF THE RAT, AS DETERMINED BY THE DANSYL REACTION , 1973, Journal of neurochemistry.

[19]  M. A. Kai-Kai Cytochemistry of the trigeminal and dorsal root ganglia and spinal cord of the rat. , 1989, Comparative biochemistry and physiology. A, Comparative physiology.

[20]  B. Baethge,et al.  Excitatory amino acids, TNF‐α , and chemokine levels in synovial fluids of patients with active arthropathies , 2004, Clinical and experimental immunology.

[21]  Richard A. Lewis,et al.  Comparison of pyrrolidinyl and piperidinyl benzamides for their anticonvulsant activity and inhibitory action on sodium channel , 1992, British journal of pharmacology.

[22]  B. Ault,et al.  Effects of excitatory amino acid receptor antagonists on a capsaicin-evoked nociceptive reflex: a comparison with morphine, clonidine and baclofen , 1993, Pain.

[23]  L. Arendt-Nielsen,et al.  Ketamine attenuates glutamate-induced mechanical sensitization of the masseter muscle in human males , 2006, Experimental Brain Research.

[24]  G. Cavaletti,et al.  Focus on the role of Glutamate in the pathology of the peripheral nervous system. , 2008, CNS and Neurological Disorders - Drug Targets.

[25]  D. D. Wheeler,et al.  INFLUX OF GLUTAMIC ACID IN PERIPHERAL NERVE—CHARACTERISTICS OF INFLUX 1 , 1968, Journal of neurochemistry.

[26]  D. Lodge,et al.  Bidirectional transport of NMDA receptor and ionophore in the vagus nerve. , 1989, European journal of pharmacology.

[27]  R. Lorentzon,et al.  Glutamate NMDAR1 receptors localised to nerves in human Achilles tendons. Implications for treatment? , 2001, Knee Surgery, Sports Traumatology, Arthroscopy.

[28]  I. Duce,et al.  Selective uptake of [3H]glutamine and [3H]glutamate into neurons and satellite cells of dorsal root ganglia in vitro , 1983, Neuroscience.

[29]  B. Sessle,et al.  Influence of sex on reflex jaw muscle activity evoked from the rat temporomandibular joint , 2002, Brain Research.

[30]  David Julius,et al.  TRPA1 Mediates the Inflammatory Actions of Environmental Irritants and Proalgesic Agents , 2006, Cell.

[31]  G. Geisslinger,et al.  Release of algesic substances in human experimental muscle pain , 2002, Inflammation Research.

[32]  P. Svensson,et al.  The analgesic action of topical diclofenac may be mediated through peripheral NMDA receptor antagonism , 2009, PAIN®.

[33]  R. Liu,et al.  Peripheral NMDA receptors contribute to activation of nociceptors: a c-fos expression study in rats , 1997, Neuroscience Letters.

[34]  E. Mayer,et al.  Role of peripheral N-methyl-D-aspartate (NMDA) receptors in visceral nociception in rats. , 2001, Gastroenterology.

[35]  Alyson Fox,et al.  Metabotropic Glutamate Receptor 5 Upregulation in A-Fibers after Spinal Nerve Injury: 2-Methyl-6-(Phenylethynyl)-Pyridine (MPEP) Reverses the Induced Thermal Hyperalgesia , 2002, The Journal of Neuroscience.

[36]  S. Said Glutamate Toxicity in Lung and Airway Disease , 2005 .

[37]  J. Konvalinka,et al.  Expression and distribution of ‘high affinity’ glutamate transporters GLT1, GLAST, EAAC1 and of GCPII in the rat peripheral nervous system , 2008, Journal of anatomy.

[38]  J. Du,et al.  Kainate-induced excitation and sensitization of nociceptors in normal and inflamed rat glabrous skin , 2006, Neuroscience.

[39]  J. Hodges,et al.  SYM-2081 a kainate receptor antagonist reduces allodynia and hyperalgesia in a freeze injury model of neuropathic pain , 2000, Brain Research.

[40]  Yuan Guo,et al.  ELECTROPHYSIOLOGICAL EVIDENCE FOR THE INTERACTION OF SUBSTANCE P AND GLUTAMATE ON Aδ AND C AFFERENT FIBRE ACTIVITY IN RAT HAIRY SKIN , 2006, Clinical and experimental pharmacology & physiology.

[41]  M. Uldry,et al.  The SLC2 family of facilitated hexose and polyol transporters , 2004, Pflügers Archiv.

[42]  M. Sullivan,et al.  Topical amitriptyline and ketamine in neuropathic pain syndromes: an open-label study. , 2005, The journal of pain : official journal of the American Pain Society.

[43]  J. Neale,et al.  Immunohistochemistry and Biosynthesis of N‐Acetylaspartylglutamate in Spinal Sensory Ganglia , 1987, Journal of neurochemistry.

[44]  R. Schechter,et al.  Fixative Composition Alters Distributions of Immunoreactivity for Glutaminase and Two Markers of Nociceptive Neurons, Nav 1.8 and TRPV1, in the Rat Dorsal Root Ganglion , 2010, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[45]  S. Carlton,et al.  Peripheral glutamate release in the hindpaw following low and high intensity sciatic stimulation , 2000, Neuroreport.

[46]  H. S. Chen,et al.  Secondary heat, but not mechanical, hyperalgesia induced by subcutaneous injection of bee venom in the conscious rat: effect of systemic MK‐801, a non‐competitive NMDA receptor antagonist , 2000, European journal of pain.

[47]  L. Arendt-Nielsen,et al.  Interactions between glutamate and capsaicin in inducing muscle pain and sensitization in humans , 2008, European journal of pain.

[48]  J. Besson,et al.  Interactions between NMDA- and prostaglandin receptor-mediated events in a model of inflammatory nociception. , 1996, European journal of pharmacology.

[49]  T. Kaneko,et al.  Immunohistochemical localization of a metabotropic glutamate receptor, mGluR7, in ganglion neurons of the rat; with special reference to the presence in glutamatergic ganglion neurons , 1996, Neuroscience Letters.

[50]  E. Kvamme,et al.  Regulation of glutaminase by exogenous glutamate, ammonia and 2-oxoglutarate in synaptosomal enriched preparation from rat brain , 1982, Neurochemical Research.

[51]  G. Taglialatela,et al.  A peripheral neuroimmune link: glutamate agonists upregulate NMDA NR1 receptor mRNA and protein, vimentin, TNF-alpha, and RANTES in cultured human synoviocytes. , 2010, American journal of physiology. Regulatory, integrative and comparative physiology.

[52]  G. Johnston,et al.  GLUTAMATE AND RELATED AMINO ACIDS IN CAT SPINAL ROOTS, DORSAL ROOT GANGLIA AND PERIPHERAL NERVES , 1970, Journal of neurochemistry.

[53]  L. Engebretsen,et al.  Coexistence of up‐regulated NMDA receptor 1 and glutamate on nerves, vessels and transformed tenocytes in tendinopathy , 2009, Scandinavian journal of medicine & science in sports.

[54]  B. Cairns,et al.  Development of inflammation after application of mustard oil or glutamate to the rat temporomandibular joint. , 1999, Archives of oral biology.

[55]  J. Levine,et al.  Different peripheral mechanisms mediate enhanced nociception in metabolic/toxic and traumatic painful peripheral neuropathies in the rat , 2002, Neuroscience.

[56]  R. Lorentzon,et al.  In vivo microdialysis and immunohistochemical analyses of tendon tissue demonstrated high amounts of free glutamate and glutamate NMDAR1 receptors, but no signs of inflammation, in Jumper's knee , 2001, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[57]  Jongseok Lee,et al.  Peripheral AMPA receptors contribute to muscle nociception and c-fos activation , 2008, Neuroscience Research.

[58]  N. Ropert,et al.  Mice Lacking Brain/Kidney Phosphate-Activated Glutaminase Have Impaired Glutamatergic Synaptic Transmission, Altered Breathing, Disorganized Goal-Directed Behavior and Die Shortly after Birth , 2006, The Journal of Neuroscience.

[59]  S. Carlton,et al.  Colocalization of metabotropic glutamate receptors in rat dorsal root ganglion cells , 2007, The Journal of comparative neurology.

[60]  S. Nakanishi,et al.  Presynaptic localization of a metabotropic glutamate receptor, mGluR7, in the primary afferent neurons: an immunohistochemical study in the rat , 1995, Neuroscience Letters.

[61]  E. Kvamme,et al.  Regulatory effects of fatty acyl-coenzyme A derivatives on phosphate-activated pig brain and kidney glutaminase in vitro. , 1975, The Biochemical journal.

[62]  S. Carlton,et al.  Peripheral administration of NMDA, AMPA or KA results in pain behaviors in rats , 1996, Neuroreport.

[63]  R. Evans Evidence supporting the indirect depolarization of primary afferent terminals in the frog by excitatory amino acids , 1980, The Journal of physiology.

[64]  R. Masri,et al.  Hypertonic saline‐induced muscle nociception and c‐fos activation are partially mediated by peripheral NMDA receptors , 2007, European journal of pain.

[65]  R. Mulkern,et al.  Activation of Peripheral Excitatory Amino Acid Receptors Decreases the Duration of Local Anesthesia , 2003, Anesthesiology.

[66]  K. Westlund,et al.  Reduction in joint swelling and hyperalgesia following post-treatment with a non-NMDA glutamate receptor antagonist , 1994, Pain.

[67]  Kaori Inoue,et al.  NMDA-type glutamate receptor is associated with cutaneous barrier homeostasis. , 2003, The Journal of investigative dermatology.

[68]  P. D. Gorin,et al.  Transported Enzymes in Sciatic Nerve and Sensory Ganglia of Rats Exposed to Maternal Antibodies Against Nerve Growth Factor , 1981, Journal of neurochemistry.

[69]  K. Schauenstein,et al.  Neuroexcitatory Signaling in Immune Tissues , 2005 .

[70]  R. Coggeshall,et al.  Localization of metabotropic glutamate receptors 2/3 on primary afferent axons in the rat , 2001, Neuroscience.

[71]  Y. Bae,et al.  Peripheral glutamate receptors participate in interleukin-1β-induced mechanical allodynia in the orofacial area of rats , 2004, Neuroscience Letters.

[72]  O. Pulido,et al.  Glutamate Receptors in Peripheral Tissues: Distribution and Implications for Toxicology , 2005 .

[73]  J. Coyle,et al.  Neurochemical and Immunocytochemical Studies on the Distribution of N‐Acetyl‐Aspartylglutamate and N‐Acetyl‐Aspartate in Rat Spinal Cord and Some Peripheral Nervous Tissues , 1987, Journal of neurochemistry.

[74]  Håkan Alfredson,et al.  Chronic tendon pain: no signs of chemical inflammation but high concentrations of the neurotransmitter glutamate. Implications for treatment? , 2002, Current drug targets.

[75]  Dongni Yang,et al.  Peripheral Group II Metabotropic Glutamate Receptors (mGluR2/3) Regulate Prostaglandin E2-Mediated Sensitization of Capsaicin Responses and Thermal Nociception , 2002, The Journal of Neuroscience.

[76]  G. Kerchner,et al.  Presynaptic Kainate Receptors Regulate Spinal Sensory Transmission , 2001, The Journal of Neuroscience.

[77]  T. Hökfelt,et al.  Expression of the vesicular glutamate transporters-1 and -2 in adult mouse dorsal root ganglia and spinal cord and their regulation by nerve injury , 2007, Neuroscience.

[78]  J. Besson,et al.  Physiological contributions of neurokinin 1 receptor activation, and interactions with NMDA receptors, to inflammatory-evoked spinal c-Fos expression. , 1996, Journal of neurophysiology.

[79]  B. Ault,et al.  l-glutamate activates peripheral nociceptors , 2005, Agents and Actions.

[80]  M. Millan,et al.  The induction of pain: an integrative review , 1999, Progress in Neurobiology.

[81]  E. Kvamme,et al.  Calcium stimulation of glutamine hydrolysis in synaptosomes from rat brain , 2004, Neurochemical Research.

[82]  D. Bereiter,et al.  Morphine and NMDA receptor antagonism reduce c-fos expression in spinal trigeminal nucleus produced by acute injury to the TMJ region , 2000, Pain.

[83]  R. Coggeshall,et al.  Localization and activation of glutamate receptors in unmyelinated axons of rat glabrous skin , 1995, Neuroscience Letters.

[84]  U. Kumar,et al.  Sensitization of rat facial cutaneous mechanoreceptors by activation of peripheral N-methyl-d-aspartate receptors , 2010, Brain Research.

[85]  R. Bardoni,et al.  Presynaptic NMDA Receptors Modulate Glutamate Release from Primary Sensory Neurons in Rat Spinal Cord Dorsal Horn , 2004, The Journal of Neuroscience.

[86]  Jang-Yen Wu,et al.  Glutamate Receptors in the Stomach and their Implications , 2005 .

[87]  Y. Pigolkin,et al.  Localization of aspartate aminotransferase in structures of a human sensory neuron , 1993, Neuroscience and Behavioral Physiology.

[88]  R. Oswald,et al.  On the Mechanisms of α-Amino-3-hydroxy-5-methylisoxazole-4-propionic Acid (AMPA) Receptor Binding to Glutamate and Kainate* , 2010, The Journal of Biological Chemistry.

[89]  L. Arendt-Nielsen,et al.  Glutamate and capsaicin-induced pain, hyperalgesia and modulatory interactions in human tendon tissue , 2009, Experimental Brain Research.

[90]  R. Kriebel,et al.  Glutamine-, glutamine synthetase-, glutamate dehydrogenase- and pyruvate carboxylase-immunoreactivities in the rat dorsal root ganglion and peripheral nerve , 2002, Brain Research.

[91]  J. Watkins,et al.  A comparison of the actions of agonists and antagonists at non‐NMDA receptors of C fibres and motoneurones of the immature rat spinal cord in vitro , 1993, British journal of pharmacology.

[92]  G. Kerchner,et al.  Glutamate and the Presynaptic Control of Spinal Sensory Transmission , 2002, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[93]  J. Hodges,et al.  SYM 2081, an agonist that desensitizes kainate receptors, attenuates capsaicin and inflammatory hyperalgesia , 2003, Brain Research.

[94]  Y. Bae,et al.  Role of peripheral group I and II metabotropic glutamate receptors in IL-1β-induced mechanical allodynia in the orofacial area of conscious rats , 2005, Pain.

[95]  A. Reeve,et al.  mGlu5 receptors and nociceptive function II. mGlu5 receptors functionally expressed on peripheral sensory neurones mediate inflammatory hyperalgesia , 2001, Neuropharmacology.

[96]  R. Wenthold,et al.  The NMDA receptor subunits NR2A and NR2B show histological and ultrastructural localization patterns similar to those of NR1 , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[97]  S. Brierley,et al.  Involvement of metabotropic glutamate 5 receptor in visceral pain , 2008, PAIN®.

[98]  L. Arendt-Nielsen,et al.  Sensitivity of rat temporalis muscle afferent fibers to peripheral N-methyl-d-aspartate receptor activation , 2006, Neuroscience.

[99]  Michael Zhao,et al.  TRPA1 mediates formalin-induced pain , 2007, Proceedings of the National Academy of Sciences.

[100]  R. Petralia,et al.  Histological and ultrastructural localization of the kainate receptor subunits, KA2 and GluR6/7, in the rat nervous system using selective antipeptide antibodies , 1994, The Journal of comparative neurology.

[101]  J. Wohlrab,et al.  N‐methyl‐D‐aspartate receptors influence the intracellular calcium concentration of keratinocytes , 2004, Experimental dermatology.

[102]  J. L. Johnson,et al.  Glutamic acid as a synaptic transmitter in the nervous system. A review. , 1972, Brain research.

[103]  A. Vainio,et al.  Topically Administered Ketamine Reduces Capsaicin-Evoked Mechanical Hyperalgesia , 2006, The Clinical journal of pain.

[104]  J. L. Johnson Compartmentation of [U-14C]proline metabolism in the dorsal root ganglion: contrasts with the ventral spinal cord gray and cerebral cortex , 1975, Brain Research.

[105]  S. Carlton,et al.  Metabotropic glutamate 1α receptors on peripheral primary afferent fibers: their role in nociception , 2001, Brain Research.

[106]  S. Carlton,et al.  Treatment with the NMDA antagonist memantine attenuates nociceptive responses to mechanical stimulation in neuropathic rats , 1995, Neuroscience Letters.

[107]  B. Cairns,et al.  TNFα mechanically sensitizes masseter muscle nociceptors by increasing prostaglandin E2 levels. , 2011, Journal of neurophysiology.

[108]  J. Kovach,et al.  Phase I and pharmacokinetic studies of DON. , 1981, Cancer treatment reports.

[109]  G. Johnston,et al.  Glutamate and related amino-acids in cat, dog, and rat spinal roots. , 1970, Comparative and general pharmacology.

[110]  M. Fanselow,et al.  Selective knockdown of NMDA receptors in primary afferent neurons decreases pain during phase 2 of the formalin test , 2011, Neuroscience.

[111]  J. Calixto,et al.  Mechanisms underlying the nociception and paw oedema caused by injection of glutamate into the mouse paw , 2002, Brain Research.

[112]  J. D. Richardson,et al.  Glutamate participates in the peripheral modulation of thermal hyperalgesia in rats. , 1995, European journal of pharmacology.

[113]  V. Duance,et al.  Modulation of interleukin-6 and matrix metalloproteinase 2 expression in human fibroblast-like synoviocytes by functional ionotropic glutamate receptors. , 2007, Arthritis and rheumatism.

[114]  S. Iyengar,et al.  Group II mGluR receptor agonists are effective in persistent and neuropathic pain models in rats , 2002, Pharmacology Biochemistry and Behavior.

[115]  R. Masri,et al.  Contribution of peripheral n-methyl-d-aspartate receptors to c-fos expression in the trigeminal spinal nucleus following acute masseteric inflammation , 2004, Neuroscience.

[116]  D. D. Wheeler,et al.  Influx of glutamic acid in peripheal nerve. Energy, ionic, and PH dependence. , 1971, Journal of neurobiology.

[117]  M. H. Aprison,et al.  The distribution of glutamic acid, a transmitter candidate, and other amino acids in the dorsal sensory neuron of the cat. , 1970, Brain research.

[118]  D. D. Wheeler,et al.  The release of amino acids from nerve during stimulation , 1966, Journal of cellular physiology.

[119]  T. Fujita,et al.  Effect of morphine on the release of excitatory amino acids in the rat hind instep: Pain is modulated by the interaction between the peripheral opioid and glutamate systems , 2006, Neuroscience.

[120]  J. Han,et al.  A novel method for convenient assessment of arthritic pain in voluntarily walking rats , 2001, Neuroscience Letters.

[121]  L. Arendt-Nielsen,et al.  Glutamate-evoked jaw muscle pain as a model of persistent myofascial TMD pain? , 2008, Archives of oral biology.

[122]  R. Werman,et al.  DISTRIBUTION OF SOME SYNAPTIC TRANSMITTER SUSPECTS IN CAT SPINAL CORD: GLUTAMIC ACID, ASPARTIC ACID, γ‐AMINOBUTYRIC ACID, GLYCINE, AND GLUTAMINE * , 1967, Journal of neurochemistry.

[123]  A. Ben-Ari,et al.  Chronic administration of ketamine for analgesia. , 2007, Journal of pain & palliative care pharmacotherapy.

[124]  R. Coggeshall,et al.  Peripheral NMDA and non‐NMDA glutamate receptors contribute to nociceptive behaviors in the rat formalin test , 1997, Neuroreport.

[125]  Yuan Guo,et al.  Local application of morphine suppresses glutamate-evoked activities of C and Aδ afferent fibers in rat hairy skin , 2005, Brain Research.

[126]  B. Sessle,et al.  Glutamate and capsaicin effects on trigeminal nociception I: Activation and peripheral sensitization of deep craniofacial nociceptive afferents , 2009, Brain Research.

[127]  D. Weinreich,et al.  Nerve impulse-enhanced release of amino acids from non-synaptic regions of peripheral and central nerve trunks of bullfrog , 1975, Brain Research.

[128]  Yuan Guo,et al.  Local effects of octreotide on glutamate-evoked activation of Aδ and C afferent fibers in rat hairy skin , 2010, Brain Research.

[129]  D. Lodge,et al.  Receptor autoradiography with [3H]L-glutamate reveals the presence and axonal transport of glutamate receptors in vagal afferent neurones of the rat. , 1987, European Journal of Pharmacology.

[130]  Z. Wen,et al.  Increase in excitatory amino acid concentration and transporters expression in osteoarthritic knees of anterior cruciate ligament transected rabbits. , 2008, Osteoarthritis and cartilage.

[131]  Z. Wen,et al.  Hyaluronic acid attenuates osteoarthritis development in the anterior cruciate ligament‐transected knee: Association with excitatory amino acid release in the joint dialysate , 2006, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[132]  L. Arendt-Nielsen,et al.  Systemic administration of monosodium glutamate elevates intramuscular glutamate levels and sensitizes rat masseter muscle afferent fibers , 2007, Pain.

[133]  T. Kaneko,et al.  Glutaminase immunoreactive neurons in the rat dorsal root ganglion contain calcitonin gene-related peptide (CGRP) , 1993, Neuroscience Letters.

[134]  J. Szolcsányi,et al.  Direct evidence for neurogenic inflammation and its prevention by denervation and by pretreatment with capsaicin. , 1967, British journal of pharmacology and chemotherapy.

[135]  O. Pulido,et al.  Glutamate Receptors in Peripheral Tissue: Excitatory Transmission Outside the CNS , 2005 .

[136]  R. Thompson,et al.  THE EFFECT OF NERVE SECTION ON THE FREE AMINO ACIDS OF NERVOUS TISSUE , 1957, Journal of neurochemistry.

[137]  Li Chen,et al.  Protein kinase C reduces Mg2+ block of NMDA-receptor channels as a mechanism of modulation , 1992, Nature.

[138]  R. Papka,et al.  Glutamate and metabotropic glutamate receptors associated with innervation of the uterine cervix during pregnancy: Receptor antagonism inhibits c‐fos expression in rat lumbosacral spinal cord at parturition , 2007, Journal of neuroscience research.

[139]  K. Westlund,et al.  Amino acid release into the knee joint: key role in nociception and inflammation , 2000, Pain.

[140]  B. Song,et al.  Two N‐methyl‐D‐aspartate receptors in rat dorsal root ganglia with different subunit composition and localization , 2002, The Journal of comparative neurology.

[141]  W. Willis The somatosensory system, with emphasis on structures important for pain , 2007, Brain Research Reviews.

[142]  Y. Cury,et al.  Peripheral tackykinin and excitatory amino acid receptors mediate hyperalgesia induced by Phoneutria nigriventer venom. , 2003, European journal of pharmacology.

[143]  P. Goadsby,et al.  The NMDA receptor antagonist MK-801 reduces Fos-like immunoreactivity within the trigeminocervical complex following superior sagittal sinus stimulation in the cat , 2001, Brain Research.

[144]  A. Maassenvandenbrink,et al.  Effects of ionotropic glutamate receptor antagonists on rat dural artery diameter in an intravital microscopy model , 2010, British journal of pharmacology.

[145]  T. Parks,et al.  γ-d-glutamylaminomethyl sulfonic acid (GAMS) distinguishes kainic acid- from AMPA-induced responses in Xenopus oocytes expressing chick brain glutamate receptors , 1993, Neuropharmacology.

[146]  A. Furuyama,et al.  Capsaicin-induced glutamate release is implicated in nociceptive processing through activation of ionotropic glutamate receptors and group I metabotropic glutamate receptor in primary afferent fibers. , 2009, Journal of pharmacological sciences.

[147]  J. Coyle,et al.  N-acetylated alpha-linked acidic dipeptidase is expressed by non-myelinating Schwann cells in the peripheral nervous system , 1995, Journal of neurocytology.

[148]  B. Sessle,et al.  Involvement of NMDA receptor mechanisms in jaw electromyographic activity and plasma extravasation induced by inflammatory irritant application to temporomandibular joint region of rats , 1996, Pain.

[149]  D. Gilden,et al.  Topical ketamine treatment of postherpetic neuralgia , 2003, Neurology.

[150]  K. Hargreaves,et al.  Activation of Excitatory Amino Acid Receptors in Bovine Dental Pulp Evokes the Release of iCGRP , 1999, Journal of dental research.

[151]  C. Luo,et al.  Primary hyperalgesia to mechanical and heat stimuli following subcutaneous bee venom injection into the plantar surface of hindpaw in the conscious rat: a comparative study with the formalin test , 1999, PAIN.

[152]  Zhihong Zhao,et al.  Peripheral NMDA and non-NMDA receptors contribute to nociception: an electrophysiological study , 2000, Brain Research Bulletin.

[153]  D. Mitsikostas,et al.  The role of glutamate and its receptors in migraine. , 2007, CNS & neurological disorders drug targets.

[154]  F. Nagy,et al.  Expression of vesicular glutamate transporters in rat lumbar spinal cord, with a note on dorsal root ganglia , 2004, The Journal of comparative neurology.

[155]  L. Arendt-Nielsen,et al.  Pain effects of glutamate injections into human jaw or neck muscles. , 2005, Journal of orofacial pain.

[156]  P. Roberts,et al.  High-affinity uptake system for glutamine in rat dorsal roots but not in nerve-endings. , 1974, Brain research.

[157]  A. Larson,et al.  Parenterally administered kainic acid induces a persistent hyperalgesia in the mouse and rat , 1999, PAIN.

[158]  R. Coggeshall,et al.  Inflammation-induced changes in peripheral glutamate receptor populations , 1999, Brain Research.

[159]  D. Lodge The history of the pharmacology and cloning of ionotropic glutamate receptors and the development of idiosyncratic nomenclature , 2009, Neuropharmacology.

[160]  M. Tohyama,et al.  Immunocytochemical localizations of cytosolic and mitochondrial glutamic oxaloacetic transaminase isozymes in rat primary sensory neurons as a marker for the glutamate neuronal system , 1987, Brain Research.

[161]  W. Willis,et al.  Neural changes in acute arthritis in monkeys. II. Increased glutamate immunoreactivity in the medial articular nerve , 1992, Brain Research Reviews.

[162]  R. Shigemoto,et al.  Immunohistochemical localization of metabotropic glutamate receptors, mGluR7a and mGluR7b, in the central nervous system of the adult rat and mouse: A light and electron microscopic study , 1998, The Journal of comparative neurology.

[163]  J. E. Huettner Glutamate receptor channels in rat DRG neurons: Activation by kainate and quisqualate and blockade of desensitization by con A , 1990, Neuron.

[164]  B. Sessle,et al.  Temporomandibular-evoked jaw muscle reflex: role of brain stem NMDA and non-NMDA receptors , 2001, Neuroreport.

[165]  J. Ro Contribution of peripheral NMDA receptors in craniofacial muscle nociception and edema formation , 2003, Brain Research.

[166]  L. Djouhri,et al.  Electrophysiological differences between nociceptive and non‐nociceptive dorsal root ganglion neurones in the rat in vivo , 2005, The Journal of physiology.

[167]  Jana Sawynok,et al.  Adenosine in the spinal cord and periphery: release and regulation of pain , 2003, Progress in Neurobiology.

[168]  L. Arendt-Nielsen,et al.  Effects of subcutaneous administration of glutamate on pain, sensitization and vasomotor responses in healthy men and women , 2006, Pain.

[169]  M. Sullivan,et al.  Topical 2% Amitriptyline and 1% Ketamine in Neuropathic Pain Syndromes: A Randomized, Double-blind, Placebo-controlled Trial , 2005, Anesthesiology.

[170]  T. Kamada,et al.  Glutamate-like immunoreactive structures in primary sensory neurons in the rat detected by a specific antiserum against glutamate , 2004, Experimental Brain Research.

[171]  F. Fonnum,et al.  Uptake of l‐Glutamate into Rat Brain Synaptic Vesicles: Effect of Inhibitors that Bind Specifically to the Glutamate Transporter , 1995, Journal of neurochemistry.

[172]  A. Stubhaug,et al.  Local treatment with the N-methyl-d-aspartate receptor antagonist ketamine, inhibit development of secondary hyperalgesia in man by a peripheral action , 1997, Neuroscience Letters.

[173]  K. Kajander,et al.  The kainate receptor antagonist 2S,4R-4-methylglutamate attenuates mechanical allodynia and thermal hyperalgesia in a rat model of nerve injury , 1999, Neuroscience.

[174]  A. J. Clark,et al.  A Pilot Study Examining Topical Amitriptyline, Ketamine, and a Combination of Both in the Treatment of Neuropathic Pain , 2003, The Clinical journal of pain.

[175]  L. Arendt-Nielsen,et al.  Glutamate evoked neck and jaw muscle pain facilitate the human jaw stretch reflex , 2004, Clinical Neurophysiology.

[176]  S. Sakoda,et al.  Involvement of NMDA receptors in Zif/268 expression in the trigeminal nucleus caudalis following formalin injection into the rat whisker pad , 2003, Brain Research Bulletin.

[177]  R. Werman,et al.  Microdetermination of glutamate in single cat spinal roots. , 1965, Life sciences.

[178]  Seung-Ro Han,et al.  Participation of peripheral group I and II metabotropic glutamate receptors in the development or maintenance of IL-1β-induced mechanical allodynia in the orofacial area of conscious rats , 2006, Neuroscience Letters.

[179]  M. Santini,et al.  Effects of reserpine and monoamine oxidase inhibition on the levels of amino acids in sensory ganglia, sympathetic ganglia and spinal cord. , 1972, Brain research.

[180]  P. Holland,et al.  Activation of iGluR5 kainate receptors inhibits neurogenic dural vasodilatation in an animal model of trigeminovascular activation , 2009, British journal of pharmacology.

[181]  W. Willis,et al.  Excitatory amino acid receptor involvement in peripheral nociceptive transmission in rats. , 1997, European journal of pharmacology.

[182]  N. Osborne,et al.  Free amino acids and related compounds in the dorsal root ganglia and spinal cord of the rat as determined by the micro dansylation procedure. , 1974, Brain research.

[183]  R. Coggeshall,et al.  Evidence for the interaction of glutamate and NK1 receptors in the periphery , 1998, Brain Research.

[184]  B. Orser,et al.  Regulation of N-methyl-D-aspartate receptor function by constitutively active protein kinase C. , 1998, Molecular pharmacology.

[185]  J. Watkins,et al.  Excitatory amino acid receptors and synaptic excitation in the mammalian central nervous system. , 1979, Journal de physiologie.

[186]  B. Droz,et al.  Neuronal subpopulations in the dorsal root ganglion of the mouse as characterized by combination of ultrastructural and cytochemical features , 1985, Brain Research.

[187]  B. Sessle,et al.  Characteristics of glutamate-evoked temporomandibular joint afferent activity in the rat. , 2001, Journal of neurophysiology.

[188]  K. Skrede,et al.  Glutamate transport, glutamine synthetase and phosphate‐activated glutaminase in rat CNS white matter. A quantitative study , 2003, Journal of neurochemistry.

[189]  L. Arendt-Nielsen,et al.  Sex-related differences in human pain and rat afferent discharge evoked by injection of glutamate into the masseter muscle. , 2001, Journal of neurophysiology.

[190]  M. A. Kai-Kai,et al.  Glutamate-immunoreactivity in the trigeminal and dorsal root ganglia, and intraspinal neurons and fibres in the dorsal horn of the rat , 1991, The Histochemical Journal.

[191]  G. Allen,et al.  Glutamate-evoked release of adenosine and regulation of peripheral nociception , 2004, Neuroscience.

[192]  M. Chan,et al.  Antinociceptive actions of honokiol and magnolol on glutamatergic and inflammatory pain , 2009, Journal of Biomedical Science.

[193]  K. Omote,et al.  Formalin-induced release of excitatory amino acids in the skin of the rat hindpaw , 1998, Brain Research.

[194]  G. Seol,et al.  Inhibition of the N-methyl-d-aspartate receptor unmasks the antinociception of endogenous opioids in the periphery , 2009, PAIN®.

[195]  S. Min,et al.  The glutamatergic N-methyl-d-aspartate and non-N-methyl-d-aspartate receptors in the joint contribute to the induction, but not maintenance, of arthritic pain in rats , 2003, Neuroscience Letters.

[196]  W. Schmidt,et al.  Histochemical localization of aspartate aminotransferase activity in the hippocampal formation and in peripheral ganglia of the rat with special reference to the glutamate transmitter metabolism. , 1984, Journal fur Hirnforschung.

[197]  C.Justin Lee,et al.  Functional Expression of AMPA Receptors on Central Terminals of Rat Dorsal Root Ganglion Neurons and Presynaptic Inhibition of Glutamate Release , 2002, Neuron.

[198]  G. Battaglia,et al.  Coexistence of glutamate and substance P in dorsal root ganglion neurons of the rat and monkey , 1988, The Journal of comparative neurology.

[199]  B. Mackenzie,et al.  Sodium-coupled neutral amino acid (System N/A) transporters of the SLC38 gene family , 2004, Pflügers Archiv.

[200]  Stephen D. Brown,et al.  Systemic ketamine attenuates nociceptive behaviors in a rat model of peripheral neuropathy , 1996, Brain Research.

[201]  Clifford J. Woolf,et al.  Nociceptors—Noxious Stimulus Detectors , 2007, Neuron.

[202]  J. Qiao,et al.  Peripheral nitric oxide contributes to both formalin‐ and NMDA‐induced activation of nociceptors: An immunocytochemical study in rats , 1999, Journal of neuroscience research.

[203]  P. Genever,et al.  Glutamate signalling in non-neuronal tissues. , 2001, Trends in pharmacological sciences.

[204]  Hui-sheng Chen,et al.  Differential roles of peripheral metabotropic glutamate receptors in bee venom-induced nociception and inflammation in conscious rats. , 2010, The journal of pain : official journal of the American Pain Society.

[205]  E. Kvamme,et al.  Synthesis of glutamate and its regulation. , 1998, Progress in brain research.

[206]  J. L. Johnson Glutamic acid as a synpatic transmitter candidate in the dorsal sensory neuron: reconsiderations. , 1977, Life sciences.

[207]  L. Arendt-Nielsen,et al.  Involvement of peripheral ionotropic glutamate receptors in activation of cutaneous branches of spinal dorsal rami following antidromic electrical stimulation of adjacent afferent nerves in rats , 2007, Brain Research Bulletin.

[208]  L. Arendt-Nielsen,et al.  Botulinum neurotoxin type A (BoNTA) decreases the mechanical sensitivity of nociceptors and inhibits neurogenic vasodilation in a craniofacial muscle targeted for migraine prophylaxis , 2010, Pain.

[209]  A. Jeromin,et al.  Neuronal calcium sensor-1 is expressed by dorsal root ganglion cells, is axonally transported to central and peripheral terminals, and is concentrated at nodes , 2004, Neuroscience.

[210]  L. Arendt-Nielsen,et al.  Differential effect of peripheral glutamate (NMDA, non-NMDA) receptor antagonists on bee venom-induced spontaneous nociception and sensitization , 2002, Brain Research Bulletin.

[211]  Maithreyan Srinivasan,et al.  In Vitro Characterization of the Mitochondrial Processing and the Potential Function of the 68-kDa Subunit of Renal Glutaminase (*) , 1995, The Journal of Biological Chemistry.

[212]  M. Tohyama,et al.  AMPA, KA and NMDA receptors are expressed in the rat DRG neurones. , 1993, Neuroreport.

[213]  J. Hearn,et al.  Comparison of the capsaicin- and amino acid-sensitivity of dorsal root C fibres in the rat and the toad. , 1991, Comparative biochemistry and physiology. C, Comparative pharmacology and toxicology.

[214]  K. Miller,et al.  Nerve growth factor-induced stimulation of dorsal root ganglion/spinal cord co-grafts in oculo: enhanced survival and growth of CGRP-immunoreactive sensory neurons , 1999, Cell and Tissue Research.

[215]  S. Carlton,et al.  Intraplantar injection of dextrorphan, ketamine or memantine attenuates formalin-induced behaviors , 1998, Brain Research.

[216]  G. Benedek,et al.  The Peripheral Antinociceptive Effects of Endomorphin-1 and Kynurenic Acid in the Rat Inflamed Joint Model , 2009, Anesthesia and analgesia.

[217]  L. Arendt-Nielsen,et al.  Effects of NGF-induced muscle sensitization on proprioception and nociception , 2008, Experimental Brain Research.

[218]  P. Svensson,et al.  Effect of Systemic Monosodium Glutamate (MSG) on Headache and Pericranial Muscle Sensitivity , 2010, Cephalalgia : an international journal of headache.

[219]  P. Roberts,et al.  Effect of dorsal root section on amino acids of rat spinal cord. , 1974, Brain research.

[220]  K. Iwata,et al.  P2X and NMDA receptor involvement in temporomandibular joint-evoked reflex activity in rat jaw muscles , 2010, Brain Research.

[221]  T. White,et al.  Intraplantar injection of glutamate evokes peripheral adenosine release in the rat hind paw: involvement of peripheral ionotropic glutamate receptors and capsaicin‐sensitive sensory afferents , 2002, Journal of neurochemistry.

[222]  M. H. Aprison,et al.  The distribution of glutamate and total free amino acids in thirteen specific regions of the cat central nervous system , 1971 .

[223]  F. Shanahan,et al.  The role of substance P in inflammatory disease , 2004, Journal of cellular physiology.

[224]  Rebecca P Seal,et al.  Molecular pharmacology of glutamate transporters, EAATs and VGLUTs , 2004, Brain Research Reviews.

[225]  L. Arendt-Nielsen,et al.  Activation of peripheral NMDA receptors contributes to human pain and rat afferent discharges evoked by injection of glutamate into the masseter muscle. , 2003, Journal of neurophysiology.

[226]  S. Hwang,et al.  The role of peripheral N-methyl-d-aspartate receptors in Freund's complete adjuvant induced mechanical hyperalgesia in rats , 2001, Neuroscience Letters.

[227]  M. Koltzenburg,et al.  Glutamate-induced excitation and sensitization of nociceptors in rat glabrous skin , 2001, Pain.

[228]  R. Coggeshall,et al.  Ultrastructural analysis of NMDA, AMPA, and kainate receptors on unmyelinated and myelinated axons in the periphery , 1998, The Journal of comparative neurology.

[229]  R. Coggeshall,et al.  N-methyl-d-aspartate-induced excitation and sensitization of normal and inflamed nociceptors , 2003, Neuroscience.

[230]  S. Bledsoe,et al.  Stimulus-induced release of endogenous amino acids from skins containing the lateral-line organ in Xenopus Laevis , 2004, Experimental Brain Research.

[231]  E. Tanaka,et al.  Administration of MK-801 decreases c-Fos expression in the trigeminal sensory nuclear complex but increases it in the midbrain during experimental movement of rat molars , 2004, Brain Research.

[232]  M. McKenna The glutamate‐glutamine cycle is not stoichiometric: Fates of glutamate in brain , 2007, Journal of neuroscience research.

[233]  R. Lorentzon,et al.  In vivo investigation of ECRB tendons with microdialysis technique--no signs of inflammation but high amounts of glutamate in tennis elbow , 2000, Acta orthopaedica Scandinavica.

[234]  A. Gammaitoni,et al.  Topical ketamine gel: possible role in treating neuropathic pain. , 2000, Pain medicine.

[235]  Y. Jan,et al.  Evidence for presynaptic N-methyl-D-aspartate autoreceptors in the spinal cord dorsal horn. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[236]  Peter König,et al.  Most peptide‐containing sensory neurons lack proteins for exocytotic release and vesicular transport of glutamate , 2005, The Journal of comparative neurology.

[237]  J. L. Johnson A comparative analysis of compartmentation of metabolism in the dorsal root ganglion and ventral spinal cord gray using [U-14C]glucose, [2-14C]glucose, [6-14C]glucose, [3,4-14C]glucose, NaH14CO3, and [2-14C]pyruvate , 1976, Brain Research.

[238]  K. Westlund,et al.  Centrally administered non-NMDA but not NMDA receptor antagonists block peripheral knee joint inflammation , 1993, Pain.

[239]  M. Minchin,et al.  Compartmentation of amino acid metabolism in the rat dorsal root ganglion; a metabolic and autoradiographic study , 1975, Brain Research.

[240]  S. Ohtori,et al.  Resolving discogenic pain , 2008, European Spine Journal.

[241]  P. Genever,et al.  Glutamate: Teaching Old Bones New Tricks—Implications for Skeletal Biology , 2005 .

[242]  J. L. Johnson Aspartic acid as a precursor for glutamic acid and glycine. , 1974, Brain research.

[243]  M. Koltzenburg,et al.  Localization of ionotropic glutamate receptors in peripheral axons of human skin , 2000, Neuroscience Letters.

[244]  J. Besson,et al.  Antinociceptive effects of RB101(S), a complete inhibitor of enkephalin‐catabolizing enzymes, are enhanced by (+)‐HA966, a functional NMDA receptor antagonist: a c‐Fos study in the rat spinal cord , 2003, European journal of pain.

[245]  M. Randić,et al.  Activation of presynaptic group I metabotropic glutamate receptors enhances glutamate release in the rat spinal cord substantia gelatinosa , 2004, Neuroscience Letters.

[246]  J. Keast,et al.  Glutamate and aspartate immunoreactivity in dorsal root ganglion cells supplying visceral and somatic targets and evidence for peripheral axonal transport , 2000, The Journal of comparative neurology.

[247]  A. Khodorova,et al.  Early and late contributions of glutamate and CGRP to mechanical sensitization by endothelin-1. , 2009, The journal of pain : official journal of the American Pain Society.

[248]  B. Sessle,et al.  Peripheral NMDA receptor modulation of jaw muscle electromyographic activity induced by capsaicin injection into the temporomandibular joint of rats , 2005, Brain Research.

[249]  L. Arendt-Nielsen,et al.  Glutamate-evoked pain and mechanical allodynia in the human masseter muscle , 2003, Pain.

[250]  C. Woolf,et al.  Peripheral noxious stimulation induces phosphorylation of the NMDA receptor NR1 subunit at the PKC‐dependent site, serine‐896, in spinal cord dorsal horn neurons , 2004, The European journal of neuroscience.

[251]  S. Nakanishi,et al.  Distributions of the mRNAs for L‐2‐amino‐4‐phosphonobutyrate‐sensitive metabotropic glutamate receptors, mGluR4 and mGluR7, in the rat brain , 1995, The Journal of comparative neurology.

[252]  J. L. Johnson An analysis of the activities of 3 key enzymes concerned with the interconversion of -ketoglutarate and glutamate: correlations with free glutamate levels in 20 specific regions of the nervous system. , 1972, Brain research.

[253]  E. Kvamme,et al.  Evidence for two species of mammalian phosphate‐activated glutaminase having different regulatory properties , 1979, FEBS letters.

[254]  J. W. Leem,et al.  Peripheral glutamate receptors contribute to mechanical hyperalgesia in a neuropathic pain model of the rat , 2004, Neuroscience.

[255]  J. Neale,et al.  Cellular localization of N-acetylaspartylglutamate in amphibian retina and spinal sensory ganglia , 1987, Brain Research.

[256]  R. Coggeshall Fos, nociception and the dorsal horn , 2005, Progress in Neurobiology.

[257]  C. Luo,et al.  Involvement of peripheral NMDA and non-NMDA receptors in development of persistent firing of spinal wide-dynamic-range neurons induced by subcutaneous bee venom injection in the cat , 1999, Brain Research.

[258]  T. Ueda,et al.  Glutamate transport and storage in synaptic vesicles. , 1998, Japanese journal of pharmacology.

[259]  M. H. Aprison,et al.  DISTRIBUTION OF SOME ENZYMES ASSOCIATED WITH THE METABOLISM OF GLUTAMATE, ASPARTATE, γ‐AMINOBUTYRATE AND GLUTAMINE IN CAT SPINAL CORD 1 , 1969, Journal of neurochemistry.

[260]  P. Roberts,et al.  [14C]GLUTAMATE UPTAKE AND COMPARTMENTATION IN GLIA OF RAT DORSAL SENSORY GANGLION , 1974, Journal of neurochemistry.

[261]  Z. Wen,et al.  Intra-articular injection of the cyclooxygenase-2 inhibitor parecoxib attenuates osteoarthritis progression in anterior cruciate ligament-transected knee in rats: role of excitatory amino acids. , 2007, Osteoarthritis and cartilage.

[262]  J. Calixto,et al.  The role of neuropeptides and capsaicin-sensitive fibres in glutamate-induced nociception and paw oedema in mice , 2003, Brain Research.

[263]  K. Westlund,et al.  Excitatory amino acid profiles of synovial fluid from patients with arthritis. , 2000, The Journal of rheumatology.

[264]  M. Sullivan,et al.  Pharmacokinetic and phase I study of intravenous DON (6-diazo-5-oxo-L-norleucine) in children , 2004, Cancer Chemotherapy and Pharmacology.

[265]  R. Coggeshall,et al.  Opioid receptors on peripheral sensory axons , 1997, Brain Research.

[266]  Takeshi Kaneko,et al.  Cellular localization of three vesicular glutamate transporter mRNAs and proteins in rat spinal cord and dorsal root ganglia , 2003, Synapse.

[267]  P. Helmbold,et al.  Expression of epidermal N-methyl-d-aspartate receptors (NMDAR1) depends on formation of the granular layer—analysis in diseases with parakeratotic cornification , 2004, Archives of Dermatological Research.

[268]  A. Heerschap,et al.  MRS assessment of glutamate clearance in a novel masticatory muscle pain model , 2005, NMR in biomedicine.

[269]  J. Besson,et al.  The contribution of NMDA receptor activation to spinal c‐Fos expression in a model of inflammatory pain , 1995, British journal of pharmacology.

[270]  S. Takamori VGLUTs: ‘Exciting’ times for glutamatergic research? , 2006, Neuroscience Research.

[271]  S. Carlton,et al.  Group II metabotropic glutamate receptor activation on peripheral nociceptors modulates TRPV1 function , 2009, Brain Research.

[272]  T. Hökfelt,et al.  Glutamate- and aspartate-like immunoreactivities in human normal and inflamed skin , 1993, Virchows Archiv. B, Cell pathology including molecular pathology.

[273]  M. Bennett,et al.  Protein kinase C modulates NMDA receptor trafficking and gating , 2001, Nature Neuroscience.

[274]  B. Sessle,et al.  Glutamate and capsaicin effects on trigeminal nociception II: Activation and central sensitization in brainstem neurons with deep craniofacial afferent input , 2009, Brain Research.